US7400687B2ExpiredUtilityA1

Multicarrier communication apparatus and multicarrier communication method

75
Assignee: MATSUSHITA ELECTRIC INDUSTRIAL CO LTDPriority: Apr 12, 2002Filed: Apr 10, 2003Granted: Jul 15, 2008
Est. expiryApr 12, 2022(expired)· nominal 20-yr term from priority
H04L 27/2626H04L 1/0043H04L 1/0618H04L 1/0071H04L 1/1845H03M 13/27H04L 1/0003H04L 1/1893H04L 27/2647H04L 5/026H04L 1/1874
75
PatentIndex Score
20
Cited by
16
References
5
Claims

Abstract

A sequence converting section 104 interchanges high-order bits where an error does not easily occur and low-order bits where an error easily occurs that are used by an M-ary modulating section 105 for each retransmission. The M-ary modulating section 105 performs M-ary modulation using the high-order bits and low-order bits interchanged for each retransmission. An M-ary modulated symbol is interleaved with an interleave pattern being different for each retransmission, and multicarrier transmitted via an OFDM transmitting section 109.

Claims

exact text as granted — not AI-modified
1. A multicarrier communication apparatus comprising:
 a bit separation section that separates transmission data having a bit sequence of one system into bit sequences of two systems; 
 a plurality of interleavers that interleave the separated bit sequences of the respective systems with interleave patterns each being different for each retransmission; 
 a bit sequence supplying section that supplies the separated bit sequences of the respective systems to the interleavers each being different for each retransmission; 
 a bit interchanging section that interchanges an order of high-order bits and low-order bits for each retransmission when modulation processing is performed on the interleaved bit sequences of the respective systems; 
 a multiplexing section that performs time division multiplexing on the bit sequences of the respective systems where the order of the high-order bits and the low-order bits is interchanged; 
 an M-ary modulating section that performs the modulation processing of modulating the transmission data with three bits or more multiplexed by said multiplexing section to one symbol; and 
 a multicarrier transmitting section that superimposes the symbol obtained by said M-ary modulating section on a plurality of subcarriers to transmit. 
 
   
   
     2. The multicarrier communication apparatus according to  claim 1 , further comprising:
 a detecting section that detects a reception level of each subcarrier, wherein: 
 said interleavers select such an interleaver pattern that prevents the same bit from being located on a subcarrier with a low reception level based on the detection result. 
 
   
   
     3. The multicarrier communication apparatus according to  claim 1 , further comprising:
 an interleaver that interleaves the symbol obtained by said M-ary modulating section with an interleave pattern being different for retransmission, wherein 
 said multicarrier transmitting section superimposes the interleaved symbol on the plurality of subcarriers to transmit. 
 
   
   
     4. A multicarrier communication apparatus that receives and demodulates a multicarrier signal transmitted from the multicarrier communication apparatus described in  claim 1 , further comprising:
 a symbol extracting section that extracts a transmission symbol from the received multicarrier signal; 
 a demodulating section that performs soft decision on the extracted symbol to restore transmission bits; 
 a deinterleaver that performs reverse processing of said interleaver to bit sequences obtained by said demodulating section for each retransmission; 
 a bit rearranging section that returns the bit sequences interchanged by said interchanging section to the original; and 
 a combining section that performs packet combining using the bit sequences returned to the original for each retransmission. 
 
   
   
     5. A multicarrier communication method comprising:
 a bit separating step of separating transmission data having a bit sequence of one system into bit sequences of two systems; 
 an interleaving step of interleaving the separated bit sequences of the respective systems using interleavers having interleave patterns each being different for each retransmission; 
 a bit sequence supplying step of supplying the separated bit sequences of the respective systems to the interleavers each being different for each retransmission; 
 a bit interchanging step of interchanging an order of high-order bits and low-order bits for each retransmission when modulation processing is performed on the interleaved bit sequences of the respective systems; 
 a multiplexing step of performing time division multiplexing on the bit sequences of the respective systems where the order of the high-order bits and the low-order bits is interchanged; 
 an M-ary modulating step of performing the modulation processing of modulating the transmission data with three bits or more multiplexed by said multiplexing step to one symbol; and 
 a multicarrier transmitting step of superimposing the symbol obtained in said M-ary modulating step on a plurality of subcarriers to transmit.

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